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GM & Honda team up for next-generation fuel cell development

New systems are expected to arrive in 2020

General Motors and Honda have signed a "long-term definitive master agreement" to co-develop next-generation fuel cells and hydrogen storage systems.

Under the terms of the agreement, the two companies will also work to improve the hydrogen refueling infrastructure is deemed as "critical for the long-term viability and consumer acceptance of fuel cell vehicles."

In a statement, GM CEO Dan Akerson said “This collaboration builds upon Honda and GM’s strengths as leaders in hydrogen fuel cell technology. We are convinced this is the best way to develop this important technology, which has the potential to help reduce the dependence on petroleum and establish sustainable mobility.”

His sentiments were echoed by Honda CEO Takanobu Ito who commented "Honda and GM are eager to accelerate the market penetration of this ultimate clean mobility technology, and I am excited to form this collaboration to fuse our leading fuel cell technologies and create an advanced system that will be both more capable and more affordable.”

The new fuel cell systems aren't expected to arrive until 2020, but Honda will launch their FCX Clarity successor in 2015. GM will announce its fuel cell production plans at a later date.

Goal is commercially feasible fuel cell and hydrogen storage in 2020 time frame

NEW YORK – General Motors (NYSE: GM) and Honda (NYSE: HMC) announced today a long-term, definitive master agreement to co-develop next-generation fuel cell system and hydrogen storage technologies, aiming for the 2020 time frame. The collaboration expects to succeed by sharing expertise, economies of scale and common sourcing strategies.

GM and Honda plan to work together with stakeholders to further advance refueling infrastructure, which is critical for the long-term viability and consumer acceptance of fuel cell vehicles.

GM and Honda are acknowledged leaders in fuel cell technology. According to the Clean Energy Patent Growth Index, GM and Honda rank No. 1 and No. 2, respectively, in total fuel cell patents filed between 2002 and 2012, with more than 1,200 between them.

“This collaboration builds upon Honda and GM’s strengths as leaders in hydrogen fuel cell technology,” said Dan Akerson, GM chairman and CEO. “We are convinced this is the best way to develop this important technology, which has the potential to help reduce the dependence on petroleum and establish sustainable mobility.”

Takanobu Ito, president & CEO of Honda Motor Co. Ltd. said: “Among all zero CO2 emission technologies, fuel cell electric vehicles have a definitive advantage with range and refueling time that is as good as conventional gasoline cars. Honda and GM are eager to accelerate the market penetration of this ultimate clean mobility technology, and I am excited to form this collaboration to fuse our leading fuel cell technologies and create an advanced system that will be both more capable and more affordable.”

GM’s Project Driveway program, launched in 2007, has accumulated nearly 3 million miles of real-world driving in a fleet of 119 hydrogen-powered vehicles, more than any other automaker.

Honda began leasing of the Honda FCX in 2002 and has deployed 85 units in the U.S. and Japan, including its successor, the FCX Clarity, which was named the 2009 World Green Car. Honda has delivered these vehicles to the hands of customers in the U.S. and collected valuable data concerning real-world use of fuel cell electric vehicles.

As already announced, Honda plans to launch the successor of FCX Clarity in Japan and the United States in 2015, and then in Europe. GM will announce its fuel cell production plans at a later date.

Fuel cell technology addresses many of the major challenges facing automobiles today – petroleum dependency, emissions, efficiency, range and refueling times. Fuel cell vehicles can operate on renewable hydrogen made from sources like wind and biomass. The only emission from fuel cell vehicles is water vapor.

Additionally, fuel cell vehicles can have up to 400 miles driving range, can be refueled in as little as three minutes, and the propulsion technology can be used on small, medium, and large vehicles.